天然矿物光电效应:矿物非经典光合作用     

鲁安怀  李艳  丁竑瑞  王长秋  许晓明  刘菲菲  刘雨薇  朱莹  黎晏彰 《地学前缘》2020,27(5):179-194

地球上生物因受到太阳光辐射作用而进化出结构精致的光合作用系统。太阳光辐射对地球表面广泛分布的无机矿物的影响与响应机制长期未被重视与理解。我们新发现的地表“矿物膜”转化太阳能系统,具有潜在的产氧固碳作用,体现出自然界中固有的矿物光电效应与非经典光合作用。本文在总结自然界中矿物光电子能量特征,特别是地表“矿物膜”特征及其光电效应性能的基础上,重点探讨铁锰氧化物矿物表现出的光电效应、产氧固碳作用与地质记录。提出矿物享有光电效应特性,地表“矿物膜”富含水钠锰矿、针铁矿、赤铁矿等天然半导体矿物,在日光辐射下具有稳定而灵敏的光电转换性能,产生矿物光电子能量;提出矿物拥有非经典光合作用的性能,自然界无机矿物转化太阳能系统类似生物光合作用吸收转化太阳能的产氧固碳系统,地表“矿物膜”光催化裂解水产氧作用及其转化大气和海洋二氧化碳为碳酸盐矿物作用,孕育出“矿物光合作用”;提出矿物具有促进生物光合作用的功能,生物光合作用中心Mn₄CaO₅在裂解水产氧过程中产生成分和结构类似水钠锰矿的锰簇化合物结构体,初步认为水钠锰矿可能促使蓝细菌光合作用系统的起源,矿物影响与削弱水分子氢键以改变水的性质,可提高水的分解程度与光合作用效率,为进一步探索矿物促进生物光合作用机理提供科学技术突破的机遇。  相似文献   

Radish (Raphanus sativus L.) Cultivar‐Specific Response to O3: Patterns of Biochemical and Plant Growth Characteristics          下载免费PDF全文

Ibrahim A. Hassan  Nigel B. Bell  Mike R. Ashmore  Lorenzo Cotrozzi  Nesreen S. Haiba  Jalal M. Basahi  Ahmad Summan  Talal Almeelbi  Iqbal M. Ismail 《洁净——土壤、空气、水》2018,46(6)

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基于FVCOM的太湖梅梁湾夏季水温、溶解氧模拟及其影响机制初探   总被引：6，自引：1，他引：5  

欧阳潇然  赵巧华  魏瀛珠 《湖泊科学》2013,25(4):478-488

水体中的溶解氧是表征水生生态系统健康与否的重要参数之一.本研究基于太湖2008年8月16 20日的风速、风向、短波辐射等气象场资料以及实测的相关水质参量,利用FVCOM(即非结构化网格有限体积近海海洋模型)模式对太湖梅梁湾三维水温以及水体中溶解氧进行模拟,模拟结果与实测值基本吻合,水温的验证回归方程为y=1.02x,R²为0.690;溶解氧的R²为0.760.同时对溶解氧浓度的时空分布,梅梁湾溶解氧的"源"和"汇"及其贡献进行了分析.结果表明:太阳辐射、风速是影响水温日成层现象的重要因子;受水温和光照的影响,夏季梅梁湾的溶解氧存在垂直差异,呈现出"双峰双谷"的日变化特征;浮游植物光合作用制氧是水中溶解氧的最重要来源,水下光衰减直接控制着初级生产力的垂直分布;浮游植物呼吸及死亡是溶解氧的最大消耗者,余下依次为底泥耗氧、碳化需氧、细菌呼吸耗氧和硝化作用耗氧.  相似文献   

水域生境好氧不产氧光合细菌(AAPB)研究进展     

张海涵  王燕  刘凯文  黄廷林  李楠  杨尚业  司凡  苗雨甜  黄鑫  张梦瑶 《湖泊科学》2020,32(6):1585-1598

好氧不产氧光合细菌（aerobic anoxygenic photosynthesis bacteria,AAPB）是广泛分布于海洋、湖泊及河流等典型水域生境中的异养原核生物,能够以环境中有机物为营养物质来获取细胞生长及代谢所需的能量,同时借助自身独特的菌绿素完成光合作用产能但不合成氧气,在物质循环与能量流动中扮演着重要角色.近年,越来越多的AAPB种属被陆续报道,基于光合基因,例如光合反应中心M亚基（pufM）的分子系统发育分析显示,大部分AAPB属于α-、β-及γ-变形菌,且丰度及多样性随生境的不同而呈现时空地理格局异质性.本文对AAPB的栖息环境与生长特性、丰度与分布、生态功能以及环境驱动因子等方面的研究进展进行了回顾和综述.目前,针对水库生态系统AAPB的研究鲜见报道,作者建议开展水库生境中AAPB多样性分布、环境驱动因素及生态功能研究,丰富对于水生生态系统中功能微生物种群生态结构与代谢功能的认识.  相似文献   

Impact of soil conditions on the physiological characteristics of maize plants in an arid region,Northwest China     

LiWen Zhao  ZhiBin He  WenZhi Zhao 《寒旱区科学》2016,8(4):334-342

Overuse of irrigation water to ensure the crop yield of maize plants has caused serious water shortage problems in the middle reach of Heihe River, China. Thus, further research on the physiological characteristics, i.e., photosynthetic rate and leaf transpiration rate, are urgently needed to develop an efficient irrigation management system. In this paper, we selected two common soil textures (sandy loam, sand) and three one-time irrigation volumes (60 mm, 20 mm, 0 mm) in order to analyze the impact of soil conditions on the physiological characteristics of maize plants. Physiological and meteorological factors, soil water content and plant growing parameters were synchronously monitored on Jun. 30, Jul. 25 and Aug. 27 of 2012. The results indicate that sandy loam is better than sand for the growth of maize plants and single irrigation may provide limited influence on the physiological characteristics. Thus, increasing irrigation times and decreasing one-time volume is suggested for an efficient irrigation system.  相似文献   

海水升温与氮限制对三角褐指藻生长及光合作用的影响     

柳清杨  徐兴莲  刘佳仪  梅洪  吴红艳 《海洋通报》2019,38(2):194-201

以硅藻三角褐指藻为实验材料,研究升温(24℃)与氮限制(40μmol/L)对藻细胞生长及光合特性的影响。结果显示,氮限制使得电子从Q_A~-到Q_B的传递受阻,降低了其对光能的吸收利用效率,导致其对高光强的耐受能力下降,从而降低生长速率。而升温并未影响三角褐指藻细胞电子传递速率、单位反应中心耗散的能量(DI_o/RC)、捕获的用于还原Q_A的能量(TR_o/RC)以及吸收的能量(ABS/RC)等,表明升温对其PSⅡ光化学反应影响不显著。但应对高光强时,升温使得藻细胞修复速率降低,导致藻细胞受光抑制明显。本研究表明,相对于温度,氮限制对三角褐指藻细胞光合作用和生长的影响更为显著,而海水升温与氮限制耦合作用会进一步影响三角褐指藻的初级生产贡献。  相似文献   

Remote Sensing Indices to Measure the Seasonal Dynamics of Photosynthesis in a Southern China Subtropical Evergreen Forest     

SUN Leigang  WANG Shaoqiang  Robert A. MICKLER  CHEN Jinghua  YU Quanzhou  QIAN Zhaohui  ZHOU Guoyi  MENG Ze 《资源与生态学报(英文版)》2019,10(2):112-126

The accurate measurement of the dynamics of photosynthesis in China’s subtropical evergreen forest ecosystems is an important contribution to carbon (C) sink estimates in global terrestrial ecosystems and their responses to climate change. Eddy covariance has historically been the only direct method to assess C flux of whole ecosystems with high temporal resolution, but it suffers from limited spatial resolution. During the last decade, continuous global monitoring of plant primary productivity from spectroradiometer sensors on flux towers and satellites has extended the temporal and spatial coverage of C flux observations. In this study, we evaluated the performance of two physiological remote sensing indices, fluorescence reflectance index (FRI) and photochemical reflectance index (PRI), to measure the seasonal variations of photosynthesis in a subtropical evergreen forest ecosystem using continuous canopy spectral and flux measurements in the Dinghushan Nature Reserve in southern China. The more commonly used NDVI has been shown to be saturated and mainly affected by illumination (R²=0.88, p < 0.001), but FRI and PRI could better track the seasonal dynamics of plant photosynthetic functioning by comparison and are less affected by illumination (R²=0.13 and R²=0.51, respectively) at the seasonal scale. FRI correlated better with daily gross primary production (GPP) in the morning hours than in the afternoon hours, in contrast to PRI which correlated better with light-use efficiency (LUE) in the afternoon hours. Both FRI and PRI could show greater correlations with GPP and LUE respectively in the senescence season than in the recovery-growth season. When incident PAR was taken into account, the relationship between GPP and FRI was improved and the correlation coefficient increased from 0.22 to 0.69 (p < 0.001). The strength of the correlation increased significantly in the senescence season (R ²=0.79, p < 0.001). Our results demonstrate the application of FRI and PRI as physiological indices for the accurate measurement of the seasonal dynamics of plant community photosynthesis in a subtropical evergreen forest, and suggest these indices may be applied to carbon cycle models to improve the estimation of regional carbon budgets.  相似文献   

条斑紫菜脱落酸合成对高盐胁迫的响应及其对光合作用的保护     

余斌  杨佳丽  牛建峰  王广策 《海洋科学》2018,42(11):83-90

植物在逆境下产生活性氧,诱导抗氧化酶活性、抗逆基因表达上调。采用梯度盐度胁迫的方法处理条斑紫菜,发现高盐胁迫下细胞内脱落酸(ABA)含量随盐度的增加而增加,提示条斑紫菜中可能存在ABA介导的抗氧化代谢通路。利用ABA间接合成途径相关的几种抑制剂处理条斑紫菜叶状体,高盐胁迫诱导氧自由基产生,在藻体复苏过程中通过测定光合作用参数的恢复情况,探测藻体受到的氧化伤害,从而证明条斑紫菜中ABA生物合成的可能路径。结果显示多效唑显著降低了光系统II的电子传递能力,说明条斑紫菜中C5前体的合成是通过类似真菌的MVA途径;萘普生减缓了光合参数的恢复,说明条斑紫菜中ABA合成途径类似于类胡萝卜素参与的间接途径;然而,间接途径合成最后一步的抑制剂钨酸钠却没有影响条斑紫菜胁迫后光合作用参数的恢复,说明条斑紫菜中可能存在经由脱落醇生成ABA的支路途径,而脱落醇可作为活性分子,调控抗氧化酶的表达。烯唑醇则可能引起ABA的分解代谢受到抑制,导致过氧化氢的过度产生,并最终对机体产生不利影响。本文的结果为后续条斑紫菜ABA介导的抗氧化机制解析提供了数据支持。  相似文献   

Growth and Physiological Response of Organs of Phragmites australis to Different Water Compensation in Degraded Wetlands     

LIXiaoyu  LIUXingtu  LIXiujun  LINJixiang  WENBolong 《湿地科学》2012,10(1):23-31

To study the effect of different water compensation on growth and physiology of reed in degraded wetlands,three water treatments in the field were conducted to test the height and photosynthesis of reed,the ions and soluble sugar contents of different organs.In the controls(without extra water compensation for 10 years),the height of reed was only 50 cm,the net photosynthetic rate,stomatal conductance,the intercellular CO2 concentration and transpiration rate were very low.The contents of Na + and Clin rhizome were higher than those in other organs.Discontinuous water compensation(continuous for 8 years,then stopped for 2 years)increased the height(2.1-fold),the net photosynthetic rate(41.8%),stomatal conductance(1.8-fold),transpiration rate(1.3-fold)of reed(Phragmites australis),and decreased the content of Na + (62.3%)and Cl- (71.1%)of rhizome significantly.Continuous water compensation(continuous for 10 years)increased the height(3.2-fold),the net photosynthetic rate(104%),stomatal conductance(2.4-fold),transpiration rate(1.5-fold)of reed,and decreased Na + (82.5%)and Cl - (64.7%)contents in rhizome, then accumulated the K+ ,H2PO4-,SO42- and soluble sugar contents significantly in rhizome.Interrupting water compensation led to the decrease of height(25.3%),the net photosynthetic rate(30.7%),stomatal conductance(17.3%) and increase of Na + (1.16-fold)in rhizome when comparing to the continuous water compensation.These results showed that recovering the degraded reed wetlands needed continuous water compensation yearly to promote reed growth.The organs of reed had corresponding physiological response characteristic to the different water compensation condition.Under long-time dry and waterlogging condition,the rhizomes both helped reed to adapt located environment,by enriching the ions such as Na+ ,Cl- ,and K+ ,H2PO4-,SO42- ,respectively.  相似文献   

黑麦草幼苗对NaCl和NaHCO3胁迫的光合响应差异     

刘建新  王鑫  贾海燕  李东波 《中国沙漠》2012,32(5):1342-1348

 为了探讨牧草光合功能对盐、碱胁迫的响应差异,采用营养液砂培方法,分别研究了不同浓度（0、50、100、150、200 mmol·L-1）NaCl和NaHCO3胁迫对黑麦草幼苗生长、叶片光合色素含量、气体交换和叶绿素荧光参数、叶绿体Hill反应活力和ATPase活性的影响。结果表明:①随着处理浓度的增加,黑麦草幼苗全株干重、叶片叶绿素和类胡萝卜素含量、净光合速率（Pn）、气孔导度（Gs）和蒸腾速率（Tr）明显下降。当NaCl浓度小于100 mmol·L-1时,胞间CO2浓度（Ci）显著降低,气孔限制值（Ls）明显增加,随着NaCl浓度进一步增大,Ci显著增加,Ls显著减小;NaHCO3胁迫下Ci随着处理浓度增大而显著增加,Ls则显著减小。但NaHCO3胁迫下各指标下降或增加的幅度大于NaCl胁迫。②随着NaCl和NaHCO3胁迫强度的增大,黑麦草幼苗荧光参数PSⅡ最大光化学效率（Fv/Fm）、实际光化学效率（ΦPSⅡ）、光化学淬灭（qP）及叶绿体Hill反应和ATPase活性明显下降,非光化学淬灭（NPQ）显著提高,叶片吸收的光能中用于光化学反应的比例（P）显著减小,天线热耗散的比例（D）显著增大。在相同浓度下,NaHCO3胁迫的各荧光参数及Hill反应和ATPase活性的变幅大于NaCl胁迫,说明NaHCO3胁迫对幼苗的伤害程度大于NaCl胁迫。由此表明,黑麦草对碱的耐性低于盐,这可能与碱的高pH值更多引起光合色素含量下降和光合机构受到严重伤害有关。  相似文献